Fabrication of a continuously oriented porous Al2O3 body and Its in vitro study

Journal of the American Ceramic Society

Volumn 88, Issue 8, 2005, Pages 2262-2266

  Lee, Byong Taek ^a   Kang, In Cheol ^a   Cho, Soon Hee ^b   Song, Ho Yeon ^b  

^a Kongju National University   (South Korea)

^b Soonchunhyang University   (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

BENDING STRENGTH; BINDERS; CARBON; CELLS; DENSITY (SPECIFIC GRAVITY); EXTRUSION; POLYVINYL ACETATES; POROUS MATERIALS; POWDERS; SURFACE ROUGHNESS;

ETHYLENE VINYL ACETATE; MULTI-PASS EXTRUSION PROCESS; OSTEOBLASTS; RELATIVE DENSITY;

ALUMINA;

EID: 27644484381     PISSN: 00027820     EISSN: None     Source Type: Journal    
DOI: 10.1111/j.1551-2916.2005.00364.x     Document Type: Article

References (12)

1. A. F. Tencer, E. C. Shors, P. L. Woodard, and R. E. Holmes, "Mechanical and Biological Properties of a Porous Polymer-Coated Coralline Ceramic;" pp. 209-21 in Handbook of Bioactive Ceramics, Vol. II. Edited by T. Yamamuro, L. L. Hench, and J. Wilson. CRC Press, Boca Raton, FL, 1990.
2. O. Gauthier, J. M. Bouler, E. Aguado, P. Pilet, and G. Daculsi, "Macropore Diameter and Macropososity Percentage on Bone Ingrowth," Biomaterials, 11 [3] 133-9 (1998).
3. K. A. Hing, S. M. Best, and W. Bonfield, "Characteristic of Porous Hyroxyapaptite." J. Mater. Sci. Mater. Med., 10, 135-45 (1999).
4. M. E. Gomes, J. S. Godinho, D. Tchalamov, A. M. Cunha, and R. L. Reis, "Alternative Tissue Engineering Scaffolds Based on Starch: Processing Methodologies, Morphology, Degradation and Mechanical Properties," Mater. Sci. Eng., C20, 19-26 (2000).
5. 3 by Microwave Sintering and its Properties," Mater. Lett., 48, 215-8 (2001).
6. 3-Carbon Powder Mixture," Ceram. Int., 27, 577-84 (2001).
7. 3 Porous Bodies by Hot Isostatic Pressing," Thin Solid Film, 297, 207-11 (1997).
8. 3 Ceramics Prepared by Gelcasting," Mater. Res. Bull., 32, 1705-12 (1997).
9. 3 During Sintering," J. Eur. Ceram. Soc., 20, 2561-68 (2000).
10. M. A. Lopes, F. J. Monteiro, and J. D. Snatos, "Glass-Reinforced Hydroxyapatite Composites: Fracture Toughness and Hardness Dependence on Microstructural Characteristics," Biomaterials, 20, 2085-90 (1999).
11. G. Georgiou and J. C. Knowles, "Glass Reinforced Hydroxyapatite for Hard Tissue Surgery-Part1: Mechanical Properties," Biomaterials, 21, 2811-5 (2001).
12. K. A. Gross and L. M. Rodrguez-Lorenzo, "Sintered Hydroxyapatites Part II: Mechanical Properties of Soled Solutions Determined by Micro Indentation," Biomaterials, 25, 1385-94 (2004).